Perspectives on Intelligence in Soft Robotics

Kortman, Vera Gesina; Mazzolai, Barbara; Sakes, Aimeé; Jovanova, Jovana

doi:10.1002/aisy.202400294

Advanced Intelligent Systems

2024

DOI: 10.1002/aisy.202400294

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Perspectives on Intelligence in Soft Robotics

Vera Gesina Kortman,

Barbara Mazzolai,

Aimeé Sakes

et al.

Abstract: Engineers frequently aim to streamline environmental factors to facilitate the effective operation of robots. However, in nature, environmental considerations play a crucial role in shaping the embodiment of organisms. To comply robots with the complexity of real‐world environments, embedding similar intelligence is key. In the field of soft robotics, various approaches offer insight into how intelligence can be integrated into artificial agents. A discussed topic is the intricate relationship between the brai… Show more

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Double-spiral as a bio-inspired functional element in engineering design

Jafarpour,

Aryayi,

Gorb

et al. 2024

Sci Rep

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Spiral, one of the most well-known functional patterns in nature that can be observed in structures such as the proboscis of lepidoptera and snail shells or as vortices forming in flowing fluids, has long served as a source of inspiration for humans in the creation of numerous spiral-based designs. Doublespiral is a design derived from spirals, which has been previously presented and utilized as a compliant joint. Advantageous properties of double-spirals, such as easily adjustable design, multiple degrees of freedom, reversible extensibility, and tunable deformability make them promising candidates for the development of mechanically intelligent structures that exhibit unique behavior and reach desired functions, such as soft grippers, continuum manipulators, energy-dissipative structures, and foldable metamaterials. In this article, we first develop the Double-Spiral Design software to facilitate the design and modeling of double-spirals. We then design and manufacture five different spiralbased structures using three-dimensional (3D) printing, including (1) a freeform passive gripper, (2) a highly extensible enveloping gripper, (3) a mechanical interlocking structure, (4) an adaptive energydissipative structure, and (5) a compliant planar joint. Through practical experimentation, we test the functionality of the developed structures and showcase the potential of double-spirals for being used in various technical applications. This study represents a significant step towards a better understanding of double-spirals and demonstrates their broad but unexplored potential in engineering design.

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Double-spiral as a bio-inspired functional element in engineering design

Jafarpour,

Aryayi,

Gorb

et al. 2024

Sci Rep

View full text Add to dashboard Cite

show abstract

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Perspectives on Intelligence in Soft Robotics

Cited by 1 publication

References 111 publications

Double-spiral as a bio-inspired functional element in engineering design

Double-spiral as a bio-inspired functional element in engineering design

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